钢铁生产行业二英污染特征变化及其排放因子

对我国某省多家钢铁生产企业烧结工序和电炉工序排放烟气中二英（PCDD/Fs）污染水平、排放特征及其排放因子进行了初步研究.结果表明,烧结工序PCDD/Fs毒性当量浓度（以I-TEQ计,下同）为0.003~0.557 ng·m^-3,均值为0.165 ng·m^-3;电炉工序PCDD/Fs毒性当量浓度为0.006~0.057 ng·m^-3,均值为0.025 ng·m^-3.PCDD/Fs毒性当量浓度水平总体较低,较2005~2019年研究报道结果下降1~2个数量级.2005~2020年,钢铁生产行业排放PCDD/Fs毒性当量浓度水平先升高后降低,尤其是新的标准限值实施以及对烟尘等常规污染物进行超低排放控制后,呈现大幅下降.指纹谱图特征显示,所有烟气样品17种PCDD/Fs中最大浓度贡献单体为2,3,7,8-TCDF,与已有研究中以高氯代PCDFs和PCDDs为主不同,且低氯代PCDFs占比有所增加,表明PCDD/Fs生成主要来源有所变化.烧结工序和电炉工序PCDD/Fs同类物指纹分布特征相似,呈现典型的高温热过程特征,两个工序生产过程中PCDD/Fs的生成机制可能均为"从头合成".钢铁生产企业烧结工序PCDD/Fs废气排放因子（以I-TEQ计,下同）为0.003~0.5 μg·t^-1,排放因子平均值为（0.18±0.22）μg·t^-1;电炉工序PCDD/Fs废气排放因子为0.04~0.5 μg·t^-1,排放因子平均值为（0.27±0.23）μg·t^-1;低于UNEP于2013发布的"二英和呋喃排放识别和量化标准工具包"以及2004年我国二英排放清单中的排放因子,建议对我国钢铁生产行业PCDD/Fs排放状况开展调查,更新排放因子.     

基于蒙特卡洛模拟与PMF模型的黄河流域沉积物重金属污染评价及源解析

沉积物是河流的重要组成部分,而沉积物中重金属的富集严重威胁着水环境安全.黄河流域沿程分布着众多工业城市,且流域水土流失量大,泥沙携带重金属进入河流导致沉积物重金属污染问题日趋严重,研究黄河流域沉积物中重金属污染状况对流域生态安全具有重要意义.收集2000~2020年发表的关于黄河流域沉积物中重金属（铅、镉、铬、砷、锌、铜、镍和汞）含量的数据,首先基于描述性统计及地统计法分析重金属的空间分布特征,进一步采用蒙特卡洛法进行地累积指数（I_geo）、潜在生态风险及毒性单位概率的评价,最后结合正定矩阵因子分解模型（PMF）与Pearson相关性分析确定污染源个数及贡献率.结果发现,黄河流域沉积物中ω（Pb）、ω（As）、ω（Zn）、ω（Ni）、ω（Cu）、ω（Hg）、ω（Cr）和ω（Cd）的均值分别为26.92、11.78、87.17、31.13、24.96、0.07、73.36和0.58 mg·kg^-1,分别超过黄河流域各省土壤背景值均值1.27、1.08、1.26、1.05、1.09、2.32、1.14和5.95倍,其中Cd超标倍数最大,应当引起重视;I_geo：Cd>Hg>Cr>Cu>Pb>Zn>As>Ni,Cd和Hg存在中度-严重污染;数据表明黄河流域上、中和下游沉积物重度生态风险占比分别为18.6%、15.7%和7.1%,呈递减趋势;黄河流域沉积物中重金属处于低毒性状态;溯源分析表明黄河流域沉积物重金属的4个来源分别是矿业源（42.2%）、自然活动（38.3%）、农业活动（11.6%）和电镀废水（7.9%）.研究结果可为黄河流域制定相关污染防控措施提供依据.     

胞外聚合物EPS对污泥理化性质影响研究

胞外聚合物(Extracellular Polymeric Substance,EPS)是一种附着于细胞表面的不溶性有机聚合物,其主要来源于微生物的新陈代谢和细胞自溶,主要是由多聚糖、蛋白质、核酸和腐殖酸等组成.分析了EPS在污泥处理系统中对污泥的絮凝性能、沉降性能、脱水性能及重金属吸附性的影响.     

深圳市餐饮垃圾收运处置规划研究

文章对深圳市餐饮垃圾单独收运处置进行了规划研究,规划年限2006-2020年.通过对深圳市餐饮垃圾的产生、收运处置现状及存在的问题分析,提出了餐饮垃圾的收运模式以及采用厌氧消化制沼气的处置方式.此外,还提出了深圳市餐饮垃圾的管理建设思路.     

Pollution survey of carbonyl compounds in train air

The train is an important vehicle in China, but its air quality has important impacts on passengers’ health. In this work, pollution from carbonyl compounds was measured in the air of six trains. The objectives of this work were to investigate carbonyl compound levels in selected air from trains, identify their emission sources, and assess the intake of carbonyl compounds for passengers. The methods for sampling and analyzing 10 carbonyl compounds such as formaldehyde, acetaldehyde, acrolein, acetone, propionaldehyde, crotonaldehyde, butyraldehyde, benzaldehyde, cyclohexanone, and valeraldehyde in indoor air were proposed with the sampling efficiency, recovery, and detection limit being 92%–100%, 91%–104%, and 0.26–0.82 ng/m³, respectively. It was indicated that the total concentrations of carbonyl compounds were 0.159–0.2828 mg/m³ with the average concentration of 0.2330 mg/m³. The average concentrations of form aldehyde, acetaldehyde and acetone were 0.0922, 0.0499, and 0.0580 mg/m³, accounting for 42.6%, 21.4%, and 24.9% of the total concentrations of carbonyl compounds, respectively. The carbonyl compounds probably came from woodwork and cigarette smoking. The intake of carbonyl compounds for the passengers was approximately 0.043–0.076 mg/h. The carbonyl compounds in train air could be harmful to human health. Translated from Environmental Science, 2006, 27(1) 91–94 [译自: 环境科学]     

Adsorption of mixed cationic-nonionic surfactant and its effect on bentonite structure

The adsorption of cationic-nonionic mixed surfactant onto bentonite and its effect on bentonite structure were investigated. The objective was to improve the understanding of surfactant behavior on clay mineral for its possible use in remediation technologies of soil and groundwater contaminated by toxic organic compounds. The cationic surfactant used was hexadecylpyridinium bromide (HDPB), and the nonionic surfactant was Triton X-100 (TX100). Adsorption of TX100 was enhanced significantly by the addition of HDPB, but this enhancement decreased with an increase in the fraction of the cationic surfactant. Part of HDPB was replaced by TX100 which decreased the adsorption of HDPB. However, the total adsorbed amount of the mixed surfactant was still increased substantially, indicating the synergistic effect between the cationic and nonionic surfactants. The surfactant-modified bentonite was characterized by Brunauer-Emmett-Teller specific surface area measurement, Fourier transform infrared spectroscopy, and thermogravimetric-derivative thermogravimetric/differential thermal analyses. Surfactant intercalation was found to decrease the bentonite specific surface area, pore volume, and surface roughness and irregularities, as calculated by nitrogen adsorption-desorption isotherms. The co-adsorption of the cationic and nonionic surfactants increased the ordering conformation of the adsorbed surfactants on bentonite, but decreased the thermal stability of the organobentonite system.     

电感耦合等离子体质谱法测定地表水中铊的研究

本研究建立了电感耦合等离子体质谱法(ICP-MS)测定地表水中铊的方法。对仪器工作条件进行了优化,用在线内标校正基体效应的干扰,重点考察了样品测定介质、酸度、共存元素干扰等因素对测定结果的影响。在最佳实验条件下,该方法的检出限可达0.003μg/L,线性相关系数不小于0.999 9,加标回收率为93%~110%。与传统的原子吸收法相比,该方法不需要富集等繁琐的前处理过程,具有检出限低、快速、精密度和准确度高等优点。     

基于灰色关联分析的杭州市造纸企业环境资源量化评价实证研究

根据杭州市2013年环境统计年鉴相关数据,以发展经济学理论为指导,建立杭州市造纸企业环境资源量化评价指标体系,利用灰色关联分析方法对杭州市216家企业的环境资源综合情况进行排序,并根据排序结果进行讨论分析,为相关决策部门提供参考.通过研究得出,杭州市造纸企业按照评价体系分为三档类型进行管理.第一档企业为先进企业,优先支持;第二档为一般企业,主要是整治提升;第三档为落后企业,关停淘汰.     

基于Tripod Beta事故模型的触电事故原因分析

应用Tripod Beta事故模型对某厂触电事故进行了深入分析,得到了事故原因,并提出预防类似事故的建议措施。